The present invention is directed to a method of polishing wafers on a polishing tool comprised of first, second and third platens. The method comprises providing a wafer having a patterned layer of insulating material, a barrier metal layer, and a metal layer formed above the wafer, performing a first polishing operation on the wafer at the first platen to remove a majority of the metal layer above the barrier metal layer, and performing an endpoint polishing operation on the wafer at the second platen to remove at least some of the metal layer. The method further comprises performing a timed overpolish operation on the wafer at the second platen after the endpoint polishing operation is completed at the second platen, performing a timed polishing operation on the wafer at the third platen to remove at least some of the barrier metal layer, determining an erosion rate of the patterned layer of insulating material, providing the determined erosion rate to a controller that determines a duration of the timed overpolish operations to be performed on at least one subsequently processed wafer at the second platen, and performing the timed overpolish operation on the at least one subsequently processed wafer at the second platen for the duration determined by the controller.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method of polishing performed on a polishing tool comprised of first, second and third platens, the method comprising: providing a wafer having a patterned layer of insulating material, a barrier metal layer, and a metal layer formed above said wafer; performing a first polishing operation on said wafer at said first platen to remove a majority of said metal layer above said barrier metal layer; performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer; performing a timed overpolish operation on said wafer at said second platen after said endpoint polishing operation is completed at said second platen; performing a timed polishing operation on said wafer at said third platen to remove substantially all of said barrier metal layer; determining an erosion rate of said patterned layer of insulating material; providing said determined erosion rate to a controller that determines a duration of the timed overpolish operations to be performed on at least one subsequently processed wafer at said second platen; and performing said timed overpolish operation on said at least one subsequently processed wafer at said second platen for the duration determined by said controller.
2. The method of claim 1 , wherein providing a wafer having a patterned layer of insulating material, a barrier metal layer, and a metal layer formed above said wafer comprises providing a wafer having a patterned layer of insulating material comprised of silicon dioxide, a barrier metal layer comprised of tantalum, and a metal layer comprised of copper formed above said wafer.
3. The method of claim 1 , wherein performing a first polishing operation on said wafer at said first platen to remove the majority of said metal layer above said barrier metal layer comprises performing a first polishing operation on said wafer at said first platen to remove at least 50% of said metal layer above said barrier metal layer.
4. The method of claim 1 , wherein performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer comprises performing an optically-sensed endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer.
5. The method of claim 1 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between an assumed thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
6. The method of claim 1 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between a measured thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
7. A method of polishing performed on a polishing tool comprised of first, second and third platens, the method comprising: providing a wafer having a patterned layer of insulating material, a barrier metal layer comprised of tantalum, and a metal layer comprised of copper formed above said wafer; performing a first polishing operation on said wafer at said first platen to remove a majority of said metal layer above said barrier metal layer; performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer; performing a timed overpolish operation on said wafer at said second platen after said endpoint polishing operation is completed at said second platen; performing a timed polishing operation on said wafer at said third platen to remove substantially all of said barrier metal layer; determining an erosion rate of said patterned layer of insulating material; providing said determined erosion rate to a controller that determines a duration of the timed overpolish operations to be performed on at least one subsequently processed wafer at said second platen; and performing said timed overpolish operation on said at least one subsequently processed wafer at said second platen for the duration determined by said controller.
8. The method of claim 7 , wherein providing a wafer having a patterned layer of insulating material comprises providing a wafer having a patterned layer of insulating material comprised of silicon dioxide.
9. The method of claim 7 , wherein performing a first polishing operation on said wafer at said first platen to remove the majority of said metal layer above said barrier metal layer comprises performing a first polishing operation on said wafer at said first platen to remove at least 50% of said metal layer above said barrier metal layer.
10. The method of claim 7 , wherein performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer comprises performing an optically-sensed endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer.
11. The method of claim 7 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between an assumed thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
12. The method of claim 7 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between a measured thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
13. A method of polishing performed on a polishing tool comprised of first, second and third platens, the method comprising: providing a wafer having a patterned layer of silicon dioxide, a barrier metal layer comprised of tantalum, and a metal layer comprised of copper formed above said wafer; performing a first polishing operation on said wafer at said first platen to remove at least 85% of said metal layer above said barrier metal layer; performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer; performing a timed overpolish operation on said wafer at said second platen after said endpoint polishing operation is completed at said second platen; performing a timed polishing operation on said wafer at said third platen to remove substantially all of said barrier metal layer; determining an erosion rate of said patterned layer of insulating material; providing said determined erosion rate to a controller that determines a duration of the timed overpolish operations to be performed on at least one subsequently processed wafer at said second platen; and performing said timed overpolish operation on said at least one subsequently processed wafer at said second platen for the duration determined by said controller.
14. The method of claim 13 , wherein performing an endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer comprises performing an optically-sensed endpoint polishing operation on said wafer at said second platen to remove at least some of said metal layer.
15. The method of claim 13 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between an assumed thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured to thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
16. The method of claim 13 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between a measured thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at said third platen are complete.
17. A method of polishing performed on a polishing tool, comprising: providing a wafer having a patterned layer of insulating material, a barrier metal layer, and a metal layer formed above said wafer; performing a first polishing operation on said wafer to remove a majority of said metal layer above said barrier metal layer; performing an endpoint polishing operation and a timed overpolish operation on said wafer, said timed overpolish operation being performed after said endpoint polishing operation is completed; determining an erosion rate of said patterned layer of insulating material; providing said determined erosion rate to a controller that determines a duration of the timed overpolish operations to be performed on at least one subsequently processed wafer; and performing said timed overpolish operation on said at least one subsequently processed wafer for the duration determined by said controller.
18. The method of claim 17 , wherein providing a wafer having a patterned layer of insulating material, a barrier metal layer, and a metal layer formed above said wafer comprises providing a wafer having a patterned layer of insulating material comprised of silicon dioxide, a barrier metal layer comprised of tantalum, and a metal layer comprised of copper formed above said wafer.
19. The method of claim 17 , wherein said first polishing operation is performed at a first platen of said polishing tool.
20. The method of claim 17 , wherein said endpoint polishing operation is performed at a second platen of said polishing tool.
21. The method of claim 17 , wherein said timed overpolish operation is performed at a second platen of said polishing tool.
22. The method of claim 17 , further comprising performing a timed overpolish operation at a third platen of said polishing tool to remove substantially all of said barrier metal layer.
23. The method of claim 17 , wherein performing a first polishing operation on said wafer to remove the majority of said metal layer above said barrier metal layer comprises performing a first polishing operation on said wafer to remove at least 50% of said metal layer above said barrier metal layer.
24. The method of claim 17 , wherein performing an endpoint polishing operation on said wafer comprises performing an optically-sensed endpoint polishing operation on said wafer.
25. The method of claim 17 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between an assumed thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations performed at a third platen of said polishing tool are complete.
26. The method of claim 17 , wherein determining an erosion rate of said patterned layer of insulating material comprises determining an erosion rate of said patterned layer of insulating material based upon the difference between a measured thickness of said patterned layer of insulating material prior to performing any polishing operations and a measured thickness of said patterned layer of insulating material after polishing operations at a third platen of said polishing tool are complete.
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March 26, 2001
July 22, 2003
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